normalize.py
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# -*- coding: utf-8 -*-
import itertools
import settings
import nkjp
from wordnet.models import LexicalUnit, Relation
def expressions(expressions):
orth_expressions = []
nkjp_connection = None
if settings.NKJP_VALIDATION:
nkjp_connection = nkjp.connect('nkjp1800x')
for expr in expressions.order_by('text'):
if expr.segments.count() < 2:
continue
no_spaced_orig_expr = expr.orth_text.replace(' ', '')
for generated in expression(nkjp_connection, expr):
no_spaced_gen_expr = generated.replace(' ', '')
if no_spaced_gen_expr != no_spaced_orig_expr:
orth_expressions.append(generated)
if settings.NKJP_VALIDATION:
nkjp_connection.close()
return orth_expressions
# @TODO: czasowniki z sie przy szukaniu synonimow
def expression(nkjp_connection, expression):
normalized_expressions = []
if expression.segments.count() > 1:
possible_forms = generate_forms(expression)
if len(possible_forms) > 1:
for form in possible_forms:
if (not settings.NKJP_VALIDATION
or nkjp.contains(nkjp_connection, get_normalized_expr_query(expression, form))):
normalized_expression = get_normalized_expr_text(expression, form)
normalized_expressions.append(normalized_expression)
return set(normalized_expressions)
def generate_forms(expression):
segments = []
expr_segments = expression.segments.order_by('position_in_expr')
for seg in expr_segments:
seg_lus = get_lus(seg.base)
if seg.is_head and (seg_lus.count() == 1 or settings.NKJP_VALIDATION):
head_equivalents = get_head_equivalents(seg)
segments.append(head_equivalents)
elif seg_lus.count() == 1 or settings.NKJP_VALIDATION:
equivalents = get_synonymic_equivalents(seg)
segments.append(equivalents)
else:
segments.append([seg.orth])
generated_expressions = itertools.product(*segments)
generated_expressions = list(generated_expressions)
pariciple_expressions = create_pariciple_expressions(generated_expressions, expression)
generated_expressions.extend(pariciple_expressions)
return generated_expressions
def create_pariciple_expressions(generated_expressions, expression):
if u'który' not in expression.base_text:
return []
pariciple_expressions = []
original_segments = expression.segments.order_by('position_in_expr')
for i, orig_seg in enumerate(original_segments):
ifin = -1
if is_aff_construction(original_segments, i):
gender = get_adj_gender(original_segments[i + 1].msd)
case = get_adj_case(original_segments[i + 1].msd)
if 'nom' in case.split('.'):
ctag = 'pact'
case = 'nom.voc'
ifin = i + 2
elif is_neg_construction(original_segments, i):
gender = get_adj_gender(original_segments[i + 1].msd)
case = get_adj_case(original_segments[i + 1].msd)
if 'nom' in case.split('.'):
ctag = 'pact'
case = 'nom.voc'
ifin = i + 3
if ifin >= 0:
pariciple_expressions.extend(get_participle_expressions(generated_expressions, original_segments, ifin,
gender, case, ctag))
return pariciple_expressions
def is_aff_construction(segments, start):
if (start + 2 < segments.count() and
segments[start].orth == u',' and
segments[start + 1].base == u'który' and
segments[start + 2].ctag == u'fin'):
return True
return False
def is_neg_construction(segments, start):
if (start + 3 < segments.count() and
segments[start].orth == u',' and
segments[start + 1].base == u'który' and
segments[start + 2].base == u'nie' and segments[start + 2].ctag != u'ppron3' and
segments[start + 3].ctag == u'fin'):
return True
return False
def get_participle_expressions(orig_expressions, segments, start, gender, case, ctag):
iseg = start
participle_expressions = []
verbs = []
while iseg < segments.count() and (segments[iseg].ctag in ['interp', 'fin', 'conj'] or segments[iseg].base in [u'się', u'nie']):
if segments[iseg].ctag == 'fin':
number = get_fin_number(segments[iseg].msd)
aspect = get_fin_aspect(segments[iseg].msd)
verb_base = segments[iseg].base
if verb_base == u'być':
return []
negation = 'aff'
if iseg - 1 > 0 and segments[iseg - 1].base == u'nie' and segments[iseg - 1].ctag != u'ppron3':
negation = 'neg'
possible_participles = get_matching_forms(verb_base, ctag,
number, case, gender, aspect, negation)
verbs.append({'seg': segments[iseg],
'iseg': iseg,
'negation': negation,
'possible_participles': possible_participles})
iseg += 1
for expr in orig_expressions:
participle_expr = list(expr)
for verb in verbs:
# for part in verb['possible_participles']:
participle_expr[verb['iseg']] = verb['possible_participles'][0]
if verb['iseg'] == start and verb['negation'] == 'neg':
participle_expr[verb['iseg'] - 3] = None
participle_expr[verb['iseg'] - 2] = None
participle_expr[verb['iseg'] - 1] = None
elif verb['iseg'] == start and verb['negation'] == 'aff':
participle_expr[verb['iseg'] - 2] = None
participle_expr[verb['iseg'] - 1] = None
elif verb['iseg'] != start and verb['negation'] == 'neg':
participle_expr[verb['iseg'] - 1] = None
if (verb['iseg'] + 1 < segments.count() and
segments[verb['iseg'] + 1].base == u'się' and
ctag == 'ppas'):
participle_expr[verb['iseg'] + 1] = None
participle_expressions.append(participle_expr)
return participle_expressions
def get_adj_case(msd):
tags = msd.split(':')
return tags[1]
def get_adj_gender(msd):
tags = msd.split(':')
return tags[2]
def get_fin_number(msd):
tags = msd.split(':')
return tags[0]
def get_fin_aspect(msd):
tags = msd.split(':')
return tags[2]
def get_matching_forms(base, ctag, number, case, gender, aspect, negation):
matching_forms = []
possible_forms = settings.MORFEUSZ2.generate(base.encode('utf8'))
for form in possible_forms:
form_tags = form.getTag(settings.MORFEUSZ2).split(':')
if (ctag == form_tags[0] and
tags_match(form_tags[1], number) and
tags_match(form_tags[2], case) and
tags_match(form_tags[3], gender) and
tags_match(form_tags[4], aspect) and
tags_match(form_tags[5], negation)):
if form.orth not in matching_forms:
matching_forms.append(form.orth)
return matching_forms
def tags_match(tag1, tag2):
tag1_alternatives = tag1.split('.')
tag2_alternatives = tag2.split('.')
return bool(set(tag1_alternatives) & set(tag2_alternatives))
def get_synonymic_equivalents(seg):
all_equivalents = []
all_equivalents.extend(get_synonyms(seg.base))
inflected_equivalents = [seg.orth]
for equivalent in all_equivalents:
forms = segment(seg, equivalent)
inflected_equivalents.extend(forms)
return list(set(inflected_equivalents))
def get_head_equivalents(seg):
all_equivalents = []
all_equivalents.extend(get_synonyms(seg.base))
all_equivalents.extend(get_by_relation(seg.base, 1,
Relation.objects.get(parent=None, name='hiperonimia')))
inflected_equivalents = [seg.orth]
for equivalent in all_equivalents:
forms = segment(seg, equivalent)
inflected_equivalents.extend(forms)
return list(set(inflected_equivalents))
def get_synonyms(base):
synonyms = []
synsets = get_synsets(base)
for synset in synsets:
for lu in synset.lus.all():
if (base != lu.base and len(lu.base.split()) == 1 and lu.base not in synonyms):
synonyms.append(lu.base)
return synonyms
def get_synsets(base):
synsets = []
lus = get_lus(base)
for lu in lus:
if lu.synset not in synsets:
synsets.append(lu.synset)
return synsets
def get_lus(base):
return LexicalUnit.objects.filter(base=base)
def get_by_relation(base, max_depth, relation):
related_bases = []
source_synsets = get_synsets(base)
related_synsets = get_related_synsets(source_synsets, relation, max_depth)
for synset in related_synsets:
if synset not in source_synsets:
for lu in synset.lus.all():
if (base != lu.base and len(lu.base.split()) == 1 and
lu.base not in related_bases):
related_bases.append(lu.base)
return related_bases
def get_related_synsets(sources, relation, max_depth):
related_synsets = []
for source in sources:
related_synsets.extend(get_related(source, relation, max_depth, 0))
return related_synsets
def get_related(source, relation, max_depth, depth):
depth += 1
visited = [source]
if depth > max_depth:
return visited
links = source.targets.filter(relation=relation)
for lid, link in enumerate(links):
visited.extend(get_related(link.parent, relation, max_depth, depth))
return visited
def get_normalized_expr_text(expression, form_segments):
expr = ''
expr_segments = expression.segments.order_by('position_in_expr')
for expr_seg, form_seg in itertools.izip(expr_segments, form_segments):
if form_seg is None:
continue
orth = form_seg
if expr_seg.has_nps:
expr += orth
else:
expr += ' %s' % orth
return expr.lstrip()
def get_normalized_expr_query(expression, form_segments):
expr = ''
expr_segments = expression.segments.order_by('position_in_expr')
for expr_seg, form_seg in itertools.izip(expr_segments, form_segments):
if form_seg is None:
continue
orth = form_seg
if expr_seg.ctag == 'interp':
orth = u'[orth="\\%s"]' % orth
elif any(char.isdigit() for char in orth):
orth = u'[orth="%s"]' % orth
else:
orth = orth + '/i'
if expr_seg.has_nps:
expr += orth
else:
expr += ' %s' % orth
return expr.lstrip()
def segment(orig_seg, synonym):
return generate_inflected_forms(synonym, orig_seg)
def generate_inflected_forms(synonym, orig_seg):
inflected_forms = []
try:
orig_tag = '%s:%s' % (orig_seg.ctag, orig_seg.msd)
orig_tag_id = settings.MORFEUSZ2.getIdResolver().getTagId(orig_tag)
inflected_forms = inflect(synonym, orig_tag_id)
except RuntimeError:
pass
# orig_morf2_interps = settings.MORFEUSZ2.analyse(orig_seg.orth.encode('utf8'))
# for interp in orig_morf2_interps:
# if interp.getTag(settings.MORFEUSZ2) == u'%s:%s' % (orig_seg.ctag, orig_seg.msd):
# inflected.extend(inflect(synonym, interp.tagId))
return set(inflected_forms)
def inflect(base, tag_id):
possible_forms = settings.MORFEUSZ2.generate(base.encode('utf8'), tag_id)
return [form.orth for form in possible_forms]